Title :
Quantitative Analysis of 2-D Electrostatic Potential Distributions in 90-nm Si pMOSFETs Using Off-Axis Electron Holography
Author :
Han, Myung-Geun ; Fejes, Peter ; Xie, Qianghua ; Bagchi, Sandeep ; Taylor, Bill ; Conner, James ; McCartney, Martha R.
Author_Institution :
Arizona State Univ., Tempe
Abstract :
Off-axis electron holography has been used for quantitative analysis of 2-D electrostatic potential distributions in 90-nm Si p-channel MOSFETs (pMOSFETs). The sample preparation for electron holography is based on focused-ion-beam (FIB) and low-energy (3 keV) Ar-ion backside milling. The measured electrostatic potentials from two pMOSFETs with different offset spacer oxide widths are compared in terms of the separation of extension junctions and source/drain (S/D) junctions. The metallurgical gate length (Lmet) and the S/D junction encroachment (deltaL) under the gate are measured and compared for the two devices. The electrostatic potential abruptness and electric field intensity are investigated around the drain side, and the lateral and vertical electric field intensities are also compared.
Keywords :
MOSFET; argon; electron holography; elemental semiconductors; focused ion beam technology; silicon; 2-D electrostatic potential distributions; Ar - Element; Ar-ion backside milling; S-D junction encroachment; Si - Interface; Si pMOSFET; focused-ion-beam; gate length measurement; lateral electric field intensities; metallurgical gate length; off-axis electron holography; size 90 nm; source-drain junctions; vertical electric field intensities; CMOSFETs; Electrons; Electrostatic analysis; Electrostatic measurements; FETs; Holography; Length measurement; MOSFETs; Metrology; Milling; 2-D dopant profiling; Electron holography; MOSFET; gate length measurement;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2007.908901
